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review.evervolv.com / android_kernel_htc_msm8960 / ada70d9425bcc5e376fef8591e4e76e204c0834c / . / fs / reiserfs / lbalance.c
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/*
* Copyright 2000 by Hans Reiser, licensing governed by reiserfs/README
*/
#include <linux/config.h>
#include <asm/uaccess.h>
#include <linux/string.h>
#include <linux/time.h>
#include <linux/reiserfs_fs.h>
#include <linux/buffer_head.h>
/* these are used in do_balance.c */
/* leaf_move_items
leaf_shift_left
leaf_shift_right
leaf_delete_items
leaf_insert_into_buf
leaf_paste_in_buffer
leaf_cut_from_buffer
leaf_paste_entries
*/
/* copy copy_count entries from source directory item to dest buffer (creating new item if needed) */
static void leaf_copy_dir_entries (struct buffer_info * dest_bi, struct buffer_head * source,
int last_first, int item_num, int from, int copy_count)
{
struct buffer_head * dest = dest_bi->bi_bh;
int item_num_in_dest; /* either the number of target item,
or if we must create a new item,
the number of the item we will
create it next to */
struct item_head * ih;
struct reiserfs_de_head * deh;
int copy_records_len; /* length of all records in item to be copied */
char * records;
ih = B_N_PITEM_HEAD (source, item_num);
RFALSE( !is_direntry_le_ih (ih), "vs-10000: item must be directory item");
/* length of all record to be copied and first byte of the last of them */
deh = B_I_DEH (source, ih);
if (copy_count) {
copy_records_len = (from ? deh_location( &(deh[from - 1]) ) :
ih_item_len(ih)) - deh_location( &(deh[from + copy_count - 1]));
records = source->b_data + ih_location(ih) +
deh_location( &(deh[from + copy_count - 1]));
} else {
copy_records_len = 0;
records = NULL;
}
/* when copy last to first, dest buffer can contain 0 items */
item_num_in_dest = (last_first == LAST_TO_FIRST) ? (( B_NR_ITEMS(dest) ) ? 0 : -1) : (B_NR_ITEMS(dest) - 1);
/* if there are no items in dest or the first/last item in dest is not item of the same directory */
if ( (item_num_in_dest == - 1) ||
(last_first == FIRST_TO_LAST && le_ih_k_offset (ih) == DOT_OFFSET) ||
(last_first == LAST_TO_FIRST && comp_short_le_keys/*COMP_SHORT_KEYS*/ (&ih->ih_key, B_N_PKEY (dest, item_num_in_dest)))) {
/* create new item in dest */
struct item_head new_ih;
/* form item header */
memcpy (&new_ih.ih_key, &ih->ih_key, KEY_SIZE);
put_ih_version( &new_ih, KEY_FORMAT_3_5 );
/* calculate item len */
put_ih_item_len( &new_ih, DEH_SIZE * copy_count + copy_records_len );
put_ih_entry_count( &new_ih, 0 );
if (last_first == LAST_TO_FIRST) {
/* form key by the following way */
if (from < I_ENTRY_COUNT(ih)) {
set_le_ih_k_offset( &new_ih, deh_offset( &(deh[from]) ) );
/*memcpy (&new_ih.ih_key.k_offset, &deh[from].deh_offset, SHORT_KEY_SIZE);*/
} else {
/* no entries will be copied to this item in this function */
set_le_ih_k_offset (&new_ih, U32_MAX);
/* this item is not yet valid, but we want I_IS_DIRECTORY_ITEM to return 1 for it, so we -1 */
}
set_le_key_k_type (KEY_FORMAT_3_5, &(new_ih.ih_key), TYPE_DIRENTRY);
}
/* insert item into dest buffer */
leaf_insert_into_buf (dest_bi, (last_first == LAST_TO_FIRST) ? 0 : B_NR_ITEMS(dest), &new_ih, NULL, 0);
} else {
/* prepare space for entries */
leaf_paste_in_buffer (dest_bi, (last_first==FIRST_TO_LAST) ? (B_NR_ITEMS(dest) - 1) : 0, MAX_US_INT,
DEH_SIZE * copy_count + copy_records_len, records, 0
);
}
item_num_in_dest = (last_first == FIRST_TO_LAST) ? (B_NR_ITEMS(dest)-1) : 0;
leaf_paste_entries (dest_bi->bi_bh, item_num_in_dest,
(last_first == FIRST_TO_LAST) ? I_ENTRY_COUNT(B_N_PITEM_HEAD (dest, item_num_in_dest)) : 0,
copy_count, deh + from, records,
DEH_SIZE * copy_count + copy_records_len
);
}
/* Copy the first (if last_first == FIRST_TO_LAST) or last (last_first == LAST_TO_FIRST) item or
part of it or nothing (see the return 0 below) from SOURCE to the end
(if last_first) or beginning (!last_first) of the DEST */
/* returns 1 if anything was copied, else 0 */
static int leaf_copy_boundary_item (struct buffer_info * dest_bi, struct buffer_head * src, int last_first,
int bytes_or_entries)
{
struct buffer_head * dest = dest_bi->bi_bh;
int dest_nr_item, src_nr_item; /* number of items in the source and destination buffers */
struct item_head * ih;
struct item_head * dih;
dest_nr_item = B_NR_ITEMS(dest);
if ( last_first == FIRST_TO_LAST ) {
/* if ( DEST is empty or first item of SOURCE and last item of DEST are the items of different objects
or of different types ) then there is no need to treat this item differently from the other items
that we copy, so we return */
ih = B_N_PITEM_HEAD (src, 0);
dih = B_N_PITEM_HEAD (dest, dest_nr_item - 1);
if (!dest_nr_item || (!op_is_left_mergeable (&(ih->ih_key), src->b_size)))
/* there is nothing to merge */
return 0;
RFALSE( ! ih_item_len(ih), "vs-10010: item can not have empty length");
if ( is_direntry_le_ih (ih) ) {
if ( bytes_or_entries == -1 )
/* copy all entries to dest */
bytes_or_entries = ih_entry_count(ih);
leaf_copy_dir_entries (dest_bi, src, FIRST_TO_LAST, 0, 0, bytes_or_entries);
return 1;
}
/* copy part of the body of the first item of SOURCE to the end of the body of the last item of the DEST
part defined by 'bytes_or_entries'; if bytes_or_entries == -1 copy whole body; don't create new item header
*/
if ( bytes_or_entries == -1 )
bytes_or_entries = ih_item_len(ih);
#ifdef CONFIG_REISERFS_CHECK
else {
if (bytes_or_entries == ih_item_len(ih) && is_indirect_le_ih(ih))
if (get_ih_free_space (ih))
reiserfs_panic (NULL, "vs-10020: leaf_copy_boundary_item: "
"last unformatted node must be filled entirely (%h)",
ih);
}
#endif
/* merge first item (or its part) of src buffer with the last
item of dest buffer. Both are of the same file */
leaf_paste_in_buffer (dest_bi,
dest_nr_item - 1, ih_item_len(dih), bytes_or_entries, B_I_PITEM(src,ih), 0
);
if (is_indirect_le_ih (dih)) {
RFALSE( get_ih_free_space (dih),
"vs-10030: merge to left: last unformatted node of non-last indirect item %h must have zerto free space",
ih);
if (bytes_or_entries == ih_item_len(ih))
set_ih_free_space (dih, get_ih_free_space (ih));
}
return 1;
}
/* copy boundary item to right (last_first == LAST_TO_FIRST) */
/* ( DEST is empty or last item of SOURCE and first item of DEST
are the items of different object or of different types )
*/
src_nr_item = B_NR_ITEMS (src);
ih = B_N_PITEM_HEAD (src, src_nr_item - 1);
dih = B_N_PITEM_HEAD (dest, 0);
if (!dest_nr_item || !op_is_left_mergeable (&(dih->ih_key), src->b_size))
return 0;
if ( is_direntry_le_ih (ih)) {
if ( bytes_or_entries == -1 )
/* bytes_or_entries = entries number in last item body of SOURCE */
bytes_or_entries = ih_entry_count(ih);
leaf_copy_dir_entries (dest_bi, src, LAST_TO_FIRST, src_nr_item - 1, ih_entry_count(ih) - bytes_or_entries, bytes_or_entries);
return 1;
}
/* copy part of the body of the last item of SOURCE to the begin of the body of the first item of the DEST;
part defined by 'bytes_or_entries'; if byte_or_entriess == -1 copy whole body; change first item key of the DEST;
don't create new item header
*/
RFALSE( is_indirect_le_ih(ih) && get_ih_free_space (ih),
"vs-10040: merge to right: last unformatted node of non-last indirect item must be filled entirely (%h)",
ih);
if ( bytes_or_entries == -1 ) {
/* bytes_or_entries = length of last item body of SOURCE */
bytes_or_entries = ih_item_len(ih);
RFALSE( le_ih_k_offset (dih) !=
le_ih_k_offset (ih) + op_bytes_number (ih, src->b_size),
"vs-10050: items %h and %h do not match", ih, dih);
/* change first item key of the DEST */
set_le_ih_k_offset (dih, le_ih_k_offset (ih));
/* item becomes non-mergeable */
/* or mergeable if left item was */
set_le_ih_k_type (dih, le_ih_k_type (ih));
} else {
/* merge to right only part of item */
RFALSE( ih_item_len(ih) <= bytes_or_entries,
"vs-10060: no so much bytes %lu (needed %lu)",
( unsigned long )ih_item_len(ih), ( unsigned long )bytes_or_entries);
/* change first item key of the DEST */
if ( is_direct_le_ih (dih) ) {
RFALSE( le_ih_k_offset (dih) <= (unsigned long)bytes_or_entries,
"vs-10070: dih %h, bytes_or_entries(%d)", dih, bytes_or_entries);
set_le_ih_k_offset (dih, le_ih_k_offset (dih) - bytes_or_entries);
} else {
RFALSE( le_ih_k_offset (dih) <=
(bytes_or_entries / UNFM_P_SIZE) * dest->b_size,
"vs-10080: dih %h, bytes_or_entries(%d)",
dih, (bytes_or_entries/UNFM_P_SIZE)*dest->b_size);
set_le_ih_k_offset (dih, le_ih_k_offset (dih) - ((bytes_or_entries / UNFM_P_SIZE) * dest->b_size));
}
}
leaf_paste_in_buffer (dest_bi, 0, 0, bytes_or_entries, B_I_PITEM(src,ih) + ih_item_len(ih) - bytes_or_entries, 0);
return 1;
}
/* copy cpy_mun items from buffer src to buffer dest
* last_first == FIRST_TO_LAST means, that we copy cpy_num items beginning from first-th item in src to tail of dest
* last_first == LAST_TO_FIRST means, that we copy cpy_num items beginning from first-th item in src to head of dest
*/
static void leaf_copy_items_entirely (struct buffer_info * dest_bi, struct buffer_head * src, int last_first,
int first, int cpy_num)
{
struct buffer_head * dest;
int nr, free_space;
int dest_before;
int last_loc, last_inserted_loc, location;
int i, j;
struct block_head * blkh;
struct item_head * ih;
RFALSE( last_first != LAST_TO_FIRST && last_first != FIRST_TO_LAST,
"vs-10090: bad last_first parameter %d", last_first);
RFALSE( B_NR_ITEMS (src) - first < cpy_num,
"vs-10100: too few items in source %d, required %d from %d",
B_NR_ITEMS(src), cpy_num, first);
RFALSE( cpy_num < 0, "vs-10110: can not copy negative amount of items");
RFALSE( ! dest_bi, "vs-10120: can not copy negative amount of items");
dest = dest_bi->bi_bh;
RFALSE( ! dest, "vs-10130: can not copy negative amount of items");
if (cpy_num == 0)
return;
blkh = B_BLK_HEAD(dest);
nr = blkh_nr_item( blkh );
free_space = blkh_free_space(blkh);
/* we will insert items before 0-th or nr-th item in dest buffer. It depends of last_first parameter */
dest_before = (last_first == LAST_TO_FIRST) ? 0 : nr;
/* location of head of first new item */
ih = B_N_PITEM_HEAD (dest, dest_before);
RFALSE( blkh_free_space(blkh) < cpy_num * IH_SIZE,
"vs-10140: not enough free space for headers %d (needed %d)",
B_FREE_SPACE (dest), cpy_num * IH_SIZE);
/* prepare space for headers */
memmove (ih + cpy_num, ih, (nr-dest_before) * IH_SIZE);
/* copy item headers */
memcpy (ih, B_N_PITEM_HEAD (src, first), cpy_num * IH_SIZE);
free_space -= (IH_SIZE * cpy_num);
set_blkh_free_space( blkh, free_space );
/* location of unmovable item */
j = location = (dest_before == 0) ? dest->b_size : ih_location(ih-1);
for (i = dest_before; i < nr + cpy_num; i ++) {
location -= ih_item_len( ih + i - dest_before );
put_ih_location( ih + i - dest_before, location );
}
/* prepare space for items */
last_loc = ih_location( &(ih[nr+cpy_num-1-dest_before]) );
last_inserted_loc = ih_location( &(ih[cpy_num-1]) );
/* check free space */
RFALSE( free_space < j - last_inserted_loc,
"vs-10150: not enough free space for items %d (needed %d)",
free_space, j - last_inserted_loc);
memmove (dest->b_data + last_loc,
dest->b_data + last_loc + j - last_inserted_loc,
last_inserted_loc - last_loc);
/* copy items */
memcpy (dest->b_data + last_inserted_loc, B_N_PITEM(src,(first + cpy_num - 1)),
j - last_inserted_loc);
/* sizes, item number */
set_blkh_nr_item( blkh, nr + cpy_num );
set_blkh_free_space( blkh, free_space - (j - last_inserted_loc) );
do_balance_mark_leaf_dirty (dest_bi->tb, dest, 0);
if (dest_bi->bi_parent) {
struct disk_child *t_dc;
t_dc = B_N_CHILD (dest_bi->bi_parent, dest_bi->bi_position);
RFALSE( dc_block_number(t_dc) != dest->b_blocknr,
"vs-10160: block number in bh does not match to field in disk_child structure %lu and %lu",
( long unsigned ) dest->b_blocknr,
( long unsigned ) dc_block_number(t_dc));
put_dc_size( t_dc, dc_size(t_dc) + (j - last_inserted_loc + IH_SIZE * cpy_num ) );
do_balance_mark_internal_dirty (dest_bi->tb, dest_bi->bi_parent, 0);
}
}
/* This function splits the (liquid) item into two items (useful when
shifting part of an item into another node.) */
static void leaf_item_bottle (struct buffer_info * dest_bi, struct buffer_head * src, int last_first,
int item_num, int cpy_bytes)
{
struct buffer_head * dest = dest_bi->bi_bh;
struct item_head * ih;
RFALSE( cpy_bytes == -1, "vs-10170: bytes == - 1 means: do not split item");
if ( last_first == FIRST_TO_LAST ) {
/* if ( if item in position item_num in buffer SOURCE is directory item ) */
if (is_direntry_le_ih (ih = B_N_PITEM_HEAD(src,item_num)))
leaf_copy_dir_entries (dest_bi, src, FIRST_TO_LAST, item_num, 0, cpy_bytes);
else {
struct item_head n_ih;
/* copy part of the body of the item number 'item_num' of SOURCE to the end of the DEST
part defined by 'cpy_bytes'; create new item header; change old item_header (????);
n_ih = new item_header;
*/
memcpy (&n_ih, ih, IH_SIZE);
put_ih_item_len( &n_ih, cpy_bytes );
if (is_indirect_le_ih (ih)) {
RFALSE( cpy_bytes == ih_item_len(ih) && get_ih_free_space(ih),
"vs-10180: when whole indirect item is bottle to left neighbor, it must have free_space==0 (not %lu)",
( long unsigned ) get_ih_free_space (ih));
set_ih_free_space (&n_ih, 0);
}
RFALSE( op_is_left_mergeable (&(ih->ih_key), src->b_size),
"vs-10190: bad mergeability of item %h", ih);
n_ih.ih_version = ih->ih_version; /* JDM Endian safe, both le */
leaf_insert_into_buf (dest_bi, B_NR_ITEMS(dest), &n_ih, B_N_PITEM (src, item_num), 0);
}
} else {
/* if ( if item in position item_num in buffer SOURCE is directory item ) */
if (is_direntry_le_ih(ih = B_N_PITEM_HEAD (src, item_num)))
leaf_copy_dir_entries (dest_bi, src, LAST_TO_FIRST, item_num, I_ENTRY_COUNT(ih) - cpy_bytes, cpy_bytes);
else {
struct item_head n_ih;
/* copy part of the body of the item number 'item_num' of SOURCE to the begin of the DEST
part defined by 'cpy_bytes'; create new item header;
n_ih = new item_header;
*/
memcpy (&n_ih, ih, SHORT_KEY_SIZE);
n_ih.ih_version = ih->ih_version; /* JDM Endian safe, both le */
if (is_direct_le_ih (ih)) {
set_le_ih_k_offset (&n_ih, le_ih_k_offset (ih) + ih_item_len(ih) - cpy_bytes);
set_le_ih_k_type (&n_ih, TYPE_DIRECT);
set_ih_free_space (&n_ih, MAX_US_INT);
} else {
/* indirect item */
RFALSE( !cpy_bytes && get_ih_free_space (ih),
"vs-10200: ih->ih_free_space must be 0 when indirect item will be appended");
set_le_ih_k_offset (&n_ih, le_ih_k_offset (ih) + (ih_item_len(ih) - cpy_bytes) / UNFM_P_SIZE * dest->b_size);
set_le_ih_k_type (&n_ih, TYPE_INDIRECT);
set_ih_free_space (&n_ih, get_ih_free_space (ih));
}
/* set item length */
put_ih_item_len( &n_ih, cpy_bytes );
n_ih.ih_version = ih->ih_version; /* JDM Endian safe, both le */
leaf_insert_into_buf (dest_bi, 0, &n_ih, B_N_PITEM(src,item_num) + ih_item_len(ih) - cpy_bytes, 0);
}
}
}
/* If cpy_bytes equals minus one than copy cpy_num whole items from SOURCE to DEST.
If cpy_bytes not equal to minus one than copy cpy_num-1 whole items from SOURCE to DEST.
From last item copy cpy_num bytes for regular item and cpy_num directory entries for
directory item. */
static int leaf_copy_items (struct buffer_info * dest_bi, struct buffer_head * src, int last_first, int cpy_num,
int cpy_bytes)
{
struct buffer_head * dest;
int pos, i, src_nr_item, bytes;
dest = dest_bi->bi_bh;
RFALSE( !dest || !src, "vs-10210: !dest || !src");
RFALSE( last_first != FIRST_TO_LAST && last_first != LAST_TO_FIRST,
"vs-10220:last_first != FIRST_TO_LAST && last_first != LAST_TO_FIRST");
RFALSE( B_NR_ITEMS(src) < cpy_num,
"vs-10230: No enough items: %d, req. %d", B_NR_ITEMS(src), cpy_num);
RFALSE( cpy_num < 0,"vs-10240: cpy_num < 0 (%d)", cpy_num);
if ( cpy_num == 0 )
return 0;
if ( last_first == FIRST_TO_LAST ) {
/* copy items to left */
pos = 0;
if ( cpy_num == 1 )
bytes = cpy_bytes;
else
bytes = -1;
/* copy the first item or it part or nothing to the end of the DEST (i = leaf_copy_boundary_item(DEST,SOURCE,0,bytes)) */
i = leaf_copy_boundary_item (dest_bi, src, FIRST_TO_LAST, bytes);
cpy_num -= i;
if ( cpy_num == 0 )
return i;
pos += i;
if ( cpy_bytes == -1 )
/* copy first cpy_num items starting from position 'pos' of SOURCE to end of DEST */
leaf_copy_items_entirely (dest_bi, src, FIRST_TO_LAST, pos, cpy_num);
else {
/* copy first cpy_num-1 items starting from position 'pos-1' of the SOURCE to the end of the DEST */
leaf_copy_items_entirely (dest_bi, src, FIRST_TO_LAST, pos, cpy_num-1);
/* copy part of the item which number is cpy_num+pos-1 to the end of the DEST */
leaf_item_bottle (dest_bi, src, FIRST_TO_LAST, cpy_num+pos-1, cpy_bytes);
}
} else {
/* copy items to right */
src_nr_item = B_NR_ITEMS (src);
if ( cpy_num == 1 )
bytes = cpy_bytes;
else
bytes = -1;
/* copy the last item or it part or nothing to the begin of the DEST (i = leaf_copy_boundary_item(DEST,SOURCE,1,bytes)); */
i = leaf_copy_boundary_item (dest_bi, src, LAST_TO_FIRST, bytes);
cpy_num -= i;
if ( cpy_num == 0 )
return i;
pos = src_nr_item - cpy_num - i;
if ( cpy_bytes == -1 ) {
/* starting from position 'pos' copy last cpy_num items of SOURCE to begin of DEST */
leaf_copy_items_entirely (dest_bi, src, LAST_TO_FIRST, pos, cpy_num);
} else {
/* copy last cpy_num-1 items starting from position 'pos+1' of the SOURCE to the begin of the DEST; */
leaf_copy_items_entirely (dest_bi, src, LAST_TO_FIRST, pos+1, cpy_num-1);
/* copy part of the item which number is pos to the begin of the DEST */
leaf_item_bottle (dest_bi, src, LAST_TO_FIRST, pos, cpy_bytes);
}
}
return i;
}
/* there are types of coping: from S[0] to L[0], from S[0] to R[0],
from R[0] to L[0]. for each of these we have to define parent and
positions of destination and source buffers */
static void leaf_define_dest_src_infos (int shift_mode, struct tree_balance * tb, struct buffer_info * dest_bi,
struct buffer_info * src_bi, int * first_last,
struct buffer_head * Snew)
{
memset (dest_bi, 0, sizeof (struct buffer_info));
memset (src_bi, 0, sizeof (struct buffer_info));
/* define dest, src, dest parent, dest position */
switch (shift_mode) {
case LEAF_FROM_S_TO_L: /* it is used in leaf_shift_left */
src_bi->tb = tb;
src_bi->bi_bh = PATH_PLAST_BUFFER (tb->tb_path);
src_bi->bi_parent = PATH_H_PPARENT (tb->tb_path, 0);
src_bi->bi_position = PATH_H_B_ITEM_ORDER (tb->tb_path, 0); /* src->b_item_order */
dest_bi->tb = tb;
dest_bi->bi_bh = tb->L[0];
dest_bi->bi_parent = tb->FL[0];
dest_bi->bi_position = get_left_neighbor_position (tb, 0);
*first_last = FIRST_TO_LAST;
break;
case LEAF_FROM_S_TO_R: /* it is used in leaf_shift_right */
src_bi->tb = tb;
src_bi->bi_bh = PATH_PLAST_BUFFER (tb->tb_path);
src_bi->bi_parent = PATH_H_PPARENT (tb->tb_path, 0);
src_bi->bi_position = PATH_H_B_ITEM_ORDER (tb->tb_path, 0);
dest_bi->tb = tb;
dest_bi->bi_bh = tb->R[0];
dest_bi->bi_parent = tb->FR[0];
dest_bi->bi_position = get_right_neighbor_position (tb, 0);
*first_last = LAST_TO_FIRST;
break;
case LEAF_FROM_R_TO_L: /* it is used in balance_leaf_when_delete */
src_bi->tb = tb;
src_bi->bi_bh = tb->R[0];
src_bi->bi_parent = tb->FR[0];
src_bi->bi_position = get_right_neighbor_position (tb, 0);
dest_bi->tb = tb;
dest_bi->bi_bh = tb->L[0];
dest_bi->bi_parent = tb->FL[0];
dest_bi->bi_position = get_left_neighbor_position (tb, 0);
*first_last = FIRST_TO_LAST;
break;
case LEAF_FROM_L_TO_R: /* it is used in balance_leaf_when_delete */
src_bi->tb = tb;
src_bi->bi_bh = tb->L[0];
src_bi->bi_parent = tb->FL[0];
src_bi->bi_position = get_left_neighbor_position (tb, 0);
dest_bi->tb = tb;
dest_bi->bi_bh = tb->R[0];
dest_bi->bi_parent = tb->FR[0];
dest_bi->bi_position = get_right_neighbor_position (tb, 0);
*first_last = LAST_TO_FIRST;
break;
case LEAF_FROM_S_TO_SNEW:
src_bi->tb = tb;
src_bi->bi_bh = PATH_PLAST_BUFFER (tb->tb_path);
src_bi->bi_parent = PATH_H_PPARENT (tb->tb_path, 0);
src_bi->bi_position = PATH_H_B_ITEM_ORDER (tb->tb_path, 0);
dest_bi->tb = tb;
dest_bi->bi_bh = Snew;
dest_bi->bi_parent = NULL;
dest_bi->bi_position = 0;
*first_last = LAST_TO_FIRST;
break;
default:
reiserfs_panic (NULL, "vs-10250: leaf_define_dest_src_infos: shift type is unknown (%d)", shift_mode);
}
RFALSE( src_bi->bi_bh == 0 || dest_bi->bi_bh == 0,
"vs-10260: mode==%d, source (%p) or dest (%p) buffer is initialized incorrectly",
shift_mode, src_bi->bi_bh, dest_bi->bi_bh);
}
/* copy mov_num items and mov_bytes of the (mov_num-1)th item to
neighbor. Delete them from source */
int leaf_move_items (int shift_mode, struct tree_balance * tb, int mov_num, int mov_bytes, struct buffer_head * Snew)
{
int ret_value;
struct buffer_info dest_bi, src_bi;
int first_last;
leaf_define_dest_src_infos (shift_mode, tb, &dest_bi, &src_bi, &first_last, Snew);
ret_value = leaf_copy_items (&dest_bi, src_bi.bi_bh, first_last, mov_num, mov_bytes);
leaf_delete_items (&src_bi, first_last, (first_last == FIRST_TO_LAST) ? 0 : (B_NR_ITEMS(src_bi.bi_bh) - mov_num), mov_num, mov_bytes);
return ret_value;
}
/* Shift shift_num items (and shift_bytes of last shifted item if shift_bytes != -1)
from S[0] to L[0] and replace the delimiting key */
int leaf_shift_left (struct tree_balance * tb, int shift_num, int shift_bytes)
{
struct buffer_head * S0 = PATH_PLAST_BUFFER (tb->tb_path);
int i;
/* move shift_num (and shift_bytes bytes) items from S[0] to left neighbor L[0] */
i = leaf_move_items (LEAF_FROM_S_TO_L, tb, shift_num, shift_bytes, NULL);
if ( shift_num ) {
if (B_NR_ITEMS (S0) == 0) { /* number of items in S[0] == 0 */
RFALSE( shift_bytes != -1,
"vs-10270: S0 is empty now, but shift_bytes != -1 (%d)",
shift_bytes);
#ifdef CONFIG_REISERFS_CHECK
if (tb->tb_mode == M_PASTE || tb->tb_mode == M_INSERT) {
print_cur_tb ("vs-10275");
reiserfs_panic (tb->tb_sb, "vs-10275: leaf_shift_left: balance condition corrupted (%c)", tb->tb_mode);
}
#endif
if (PATH_H_POSITION (tb->tb_path, 1) == 0)
replace_key (tb, tb->CFL[0], tb->lkey[0], PATH_H_PPARENT (tb->tb_path, 0), 0);
} else {
/* replace lkey in CFL[0] by 0-th key from S[0]; */
replace_key (tb, tb->CFL[0], tb->lkey[0], S0, 0);
RFALSE( (shift_bytes != -1 &&
!(is_direntry_le_ih (B_N_PITEM_HEAD (S0, 0))
&& !I_ENTRY_COUNT (B_N_PITEM_HEAD (S0, 0)))) &&
(!op_is_left_mergeable (B_N_PKEY (S0, 0), S0->b_size)),
"vs-10280: item must be mergeable");
}
}
return i;
}
/* CLEANING STOPPED HERE */
/* Shift shift_num (shift_bytes) items from S[0] to the right neighbor, and replace the delimiting key */
int leaf_shift_right(
struct tree_balance * tb,
int shift_num,
int shift_bytes
)
{
// struct buffer_head * S0 = PATH_PLAST_BUFFER (tb->tb_path);
int ret_value;
/* move shift_num (and shift_bytes) items from S[0] to right neighbor R[0] */
ret_value = leaf_move_items (LEAF_FROM_S_TO_R, tb, shift_num, shift_bytes, NULL);
/* replace rkey in CFR[0] by the 0-th key from R[0] */
if (shift_num) {
replace_key (tb, tb->CFR[0], tb->rkey[0], tb->R[0], 0);
}
return ret_value;
}
static void leaf_delete_items_entirely (struct buffer_info * bi,
int first, int del_num);
/* If del_bytes == -1, starting from position 'first' delete del_num items in whole in buffer CUR.
If not.
If last_first == 0. Starting from position 'first' delete del_num-1 items in whole. Delete part of body of
the first item. Part defined by del_bytes. Don't delete first item header
If last_first == 1. Starting from position 'first+1' delete del_num-1 items in whole. Delete part of body of
the last item . Part defined by del_bytes. Don't delete last item header.
*/
void leaf_delete_items (struct buffer_info * cur_bi, int last_first,
int first, int del_num, int del_bytes)
{
struct buffer_head * bh;
int item_amount = B_NR_ITEMS (bh = cur_bi->bi_bh);
RFALSE( !bh, "10155: bh is not defined");
RFALSE( del_num < 0, "10160: del_num can not be < 0. del_num==%d", del_num);
RFALSE( first < 0 || first + del_num > item_amount,
"10165: invalid number of first item to be deleted (%d) or "
"no so much items (%d) to delete (only %d)",
first, first + del_num, item_amount);
if ( del_num == 0 )
return;
if ( first == 0 && del_num == item_amount && del_bytes == -1 ) {
make_empty_node (cur_bi);
do_balance_mark_leaf_dirty (cur_bi->tb, bh, 0);
return;
}
if ( del_bytes == -1 )
/* delete del_num items beginning from item in position first */
leaf_delete_items_entirely (cur_bi, first, del_num);
else {
if ( last_first == FIRST_TO_LAST ) {
/* delete del_num-1 items beginning from item in position first */
leaf_delete_items_entirely (cur_bi, first, del_num-1);
/* delete the part of the first item of the bh
do not delete item header
*/
leaf_cut_from_buffer (cur_bi, 0, 0, del_bytes);
} else {
struct item_head * ih;
int len;
/* delete del_num-1 items beginning from item in position first+1 */
leaf_delete_items_entirely (cur_bi, first+1, del_num-1);
if (is_direntry_le_ih (ih = B_N_PITEM_HEAD(bh, B_NR_ITEMS(bh)-1))) /* the last item is directory */
/* len = numbers of directory entries in this item */
len = ih_entry_count(ih);
else
/* len = body len of item */
len = ih_item_len(ih);
/* delete the part of the last item of the bh
do not delete item header
*/
leaf_cut_from_buffer (cur_bi, B_NR_ITEMS(bh)-1, len - del_bytes, del_bytes);
}
}
}
/* insert item into the leaf node in position before */
void leaf_insert_into_buf (struct buffer_info * bi, int before,
struct item_head * inserted_item_ih,
const char * inserted_item_body,
int zeros_number)
{
struct buffer_head * bh = bi->bi_bh;
int nr, free_space;
struct block_head * blkh;
struct item_head * ih;
int i;
int last_loc, unmoved_loc;
char * to;
blkh = B_BLK_HEAD(bh);
nr = blkh_nr_item(blkh);
free_space = blkh_free_space( blkh );
/* check free space */
RFALSE( free_space < ih_item_len(inserted_item_ih) + IH_SIZE,
"vs-10170: not enough free space in block %z, new item %h",
bh, inserted_item_ih);
RFALSE( zeros_number > ih_item_len(inserted_item_ih),
"vs-10172: zero number == %d, item length == %d",
zeros_number, ih_item_len(inserted_item_ih));
/* get item new item must be inserted before */
ih = B_N_PITEM_HEAD (bh, before);
/* prepare space for the body of new item */
last_loc = nr ? ih_location( &(ih[nr - before - 1]) ) : bh->b_size;
unmoved_loc = before ? ih_location( ih-1 ) : bh->b_size;
memmove (bh->b_data + last_loc - ih_item_len(inserted_item_ih),
bh->b_data + last_loc, unmoved_loc - last_loc);
to = bh->b_data + unmoved_loc - ih_item_len(inserted_item_ih);
memset (to, 0, zeros_number);
to += zeros_number;
/* copy body to prepared space */
if (inserted_item_body)
memmove (to, inserted_item_body, ih_item_len(inserted_item_ih) - zeros_number);
else
memset(to, '\0', ih_item_len(inserted_item_ih) - zeros_number);
/* insert item header */
memmove (ih + 1, ih, IH_SIZE * (nr - before));
memmove (ih, inserted_item_ih, IH_SIZE);
/* change locations */
for (i = before; i < nr + 1; i ++)
{
unmoved_loc -= ih_item_len( &(ih[i-before]));
put_ih_location( &(ih[i-before]), unmoved_loc );
}
/* sizes, free space, item number */
set_blkh_nr_item( blkh, blkh_nr_item(blkh) + 1 );
set_blkh_free_space( blkh,
free_space - (IH_SIZE + ih_item_len(inserted_item_ih ) ) );
do_balance_mark_leaf_dirty (bi->tb, bh, 1);
if (bi->bi_parent) {
struct disk_child *t_dc;
t_dc = B_N_CHILD (bi->bi_parent, bi->bi_position);
put_dc_size( t_dc, dc_size(t_dc) + (IH_SIZE + ih_item_len(inserted_item_ih)));
do_balance_mark_internal_dirty (bi->tb, bi->bi_parent, 0);
}
}
/* paste paste_size bytes to affected_item_num-th item.
When item is a directory, this only prepare space for new entries */
void leaf_paste_in_buffer (struct buffer_info * bi, int affected_item_num,
int pos_in_item, int paste_size,
const char * body,
int zeros_number)
{
struct buffer_head * bh = bi->bi_bh;
int nr, free_space;
struct block_head * blkh;
struct item_head * ih;
int i;
int last_loc, unmoved_loc;
blkh = B_BLK_HEAD(bh);
nr = blkh_nr_item(blkh);
free_space = blkh_free_space(blkh);
/* check free space */
RFALSE( free_space < paste_size,
"vs-10175: not enough free space: needed %d, available %d",
paste_size, free_space);
#ifdef CONFIG_REISERFS_CHECK
if (zeros_number > paste_size) {
print_cur_tb ("10177");
reiserfs_panic ( NULL, "vs-10177: leaf_paste_in_buffer: ero number == %d, paste_size == %d",
zeros_number, paste_size);
}
#endif /* CONFIG_REISERFS_CHECK */
/* item to be appended */
ih = B_N_PITEM_HEAD(bh, affected_item_num);
last_loc = ih_location( &(ih[nr - affected_item_num - 1]) );
unmoved_loc = affected_item_num ? ih_location( ih-1 ) : bh->b_size;
/* prepare space */
memmove (bh->b_data + last_loc - paste_size, bh->b_data + last_loc,
unmoved_loc - last_loc);
/* change locations */
for (i = affected_item_num; i < nr; i ++)
put_ih_location( &(ih[i-affected_item_num]),
ih_location( &(ih[i-affected_item_num])) - paste_size );
if ( body ) {
if (!is_direntry_le_ih (ih)) {
if (!pos_in_item) {
/* shift data to right */
memmove (bh->b_data + ih_location(ih) + paste_size,
bh->b_data + ih_location(ih), ih_item_len(ih));
/* paste data in the head of item */
memset (bh->b_data + ih_location(ih), 0, zeros_number);
memcpy (bh->b_data + ih_location(ih) + zeros_number, body, paste_size - zeros_number);
} else {
memset (bh->b_data + unmoved_loc - paste_size, 0, zeros_number);
memcpy (bh->b_data + unmoved_loc - paste_size + zeros_number, body, paste_size - zeros_number);
}
}
}
else
memset(bh->b_data + unmoved_loc - paste_size, '\0', paste_size);
put_ih_item_len( ih, ih_item_len(ih) + paste_size );
/* change free space */
set_blkh_free_space( blkh, free_space - paste_size );
do_balance_mark_leaf_dirty (bi->tb, bh, 0);
if (bi->bi_parent) {
struct disk_child *t_dc = B_N_CHILD (bi->bi_parent, bi->bi_position);
put_dc_size( t_dc, dc_size(t_dc) + paste_size );
do_balance_mark_internal_dirty (bi->tb, bi->bi_parent, 0);
}
}
/* cuts DEL_COUNT entries beginning from FROM-th entry. Directory item
does not have free space, so it moves DEHs and remaining records as
necessary. Return value is size of removed part of directory item
in bytes. */
static int leaf_cut_entries (
struct buffer_head * bh,
struct item_head * ih,
int from,
int del_count
)
{
char * item;
struct reiserfs_de_head * deh;
int prev_record_offset; /* offset of record, that is (from-1)th */
char * prev_record; /* */
int cut_records_len; /* length of all removed records */
int i;
/* make sure, that item is directory and there are enough entries to
remove */
RFALSE( !is_direntry_le_ih (ih), "10180: item is not directory item");
RFALSE( I_ENTRY_COUNT(ih) < from + del_count,
"10185: item contains not enough entries: entry_cout = %d, from = %d, to delete = %d",
I_ENTRY_COUNT(ih), from, del_count);
if (del_count == 0)
return 0;
/* first byte of item */
item = bh->b_data + ih_location(ih);
/* entry head array */
deh = B_I_DEH (bh, ih);
/* first byte of remaining entries, those are BEFORE cut entries
(prev_record) and length of all removed records (cut_records_len) */
prev_record_offset = (from ? deh_location( &(deh[from - 1])) : ih_item_len(ih));
cut_records_len = prev_record_offset/*from_record*/ -
deh_location( &(deh[from + del_count - 1]));
prev_record = item + prev_record_offset;
/* adjust locations of remaining entries */
for (i = I_ENTRY_COUNT(ih) - 1; i > from + del_count - 1; i --)
put_deh_location( &(deh[i]),
deh_location( &deh[i] ) - (DEH_SIZE * del_count ) );
for (i = 0; i < from; i ++)
put_deh_location( &(deh[i]),
deh_location( &deh[i] ) - (DEH_SIZE * del_count + cut_records_len) );
put_ih_entry_count( ih, ih_entry_count(ih) - del_count );
/* shift entry head array and entries those are AFTER removed entries */
memmove ((char *)(deh + from),
deh + from + del_count,
prev_record - cut_records_len - (char *)(deh + from + del_count));
/* shift records, those are BEFORE removed entries */
memmove (prev_record - cut_records_len - DEH_SIZE * del_count,
prev_record, item + ih_item_len(ih) - prev_record);
return DEH_SIZE * del_count + cut_records_len;
}
/* when cut item is part of regular file
pos_in_item - first byte that must be cut
cut_size - number of bytes to be cut beginning from pos_in_item
when cut item is part of directory
pos_in_item - number of first deleted entry
cut_size - count of deleted entries
*/
void leaf_cut_from_buffer (struct buffer_info * bi, int cut_item_num,
int pos_in_item, int cut_size)
{
int nr;
struct buffer_head * bh = bi->bi_bh;
struct block_head * blkh;
struct item_head * ih;
int last_loc, unmoved_loc;
int i;
blkh = B_BLK_HEAD(bh);
nr = blkh_nr_item(blkh);
/* item head of truncated item */
ih = B_N_PITEM_HEAD (bh, cut_item_num);
if (is_direntry_le_ih (ih)) {
/* first cut entry ()*/
cut_size = leaf_cut_entries (bh, ih, pos_in_item, cut_size);
if (pos_in_item == 0) {
/* change key */
RFALSE( cut_item_num,
"when 0-th enrty of item is cut, that item must be first in the node, not %d-th", cut_item_num);
/* change item key by key of first entry in the item */
set_le_ih_k_offset (ih, deh_offset(B_I_DEH (bh, ih)));
/*memcpy (&ih->ih_key.k_offset, &(B_I_DEH (bh, ih)->deh_offset), SHORT_KEY_SIZE);*/
}
} else {
/* item is direct or indirect */
RFALSE( is_statdata_le_ih (ih), "10195: item is stat data");
RFALSE( pos_in_item && pos_in_item + cut_size != ih_item_len(ih),
"10200: invalid offset (%lu) or trunc_size (%lu) or ih_item_len (%lu)",
( long unsigned ) pos_in_item, ( long unsigned ) cut_size,
( long unsigned ) ih_item_len (ih));
/* shift item body to left if cut is from the head of item */
if (pos_in_item == 0) {
memmove( bh->b_data + ih_location(ih),
bh->b_data + ih_location(ih) + cut_size,
ih_item_len(ih) - cut_size);
/* change key of item */
if (is_direct_le_ih (ih))
set_le_ih_k_offset (ih, le_ih_k_offset (ih) + cut_size);
else {
set_le_ih_k_offset (ih, le_ih_k_offset (ih) + (cut_size / UNFM_P_SIZE) * bh->b_size);
RFALSE( ih_item_len(ih) == cut_size && get_ih_free_space (ih),
"10205: invalid ih_free_space (%h)", ih);
}
}
}
/* location of the last item */
last_loc = ih_location( &(ih[nr - cut_item_num - 1]) );
/* location of the item, which is remaining at the same place */
unmoved_loc = cut_item_num ? ih_location(ih-1) : bh->b_size;
/* shift */
memmove (bh->b_data + last_loc + cut_size, bh->b_data + last_loc,
unmoved_loc - last_loc - cut_size);
/* change item length */
put_ih_item_len( ih, ih_item_len(ih) - cut_size );
if (is_indirect_le_ih (ih)) {
if (pos_in_item)
set_ih_free_space (ih, 0);
}
/* change locations */
for (i = cut_item_num; i < nr; i ++)
put_ih_location( &(ih[i-cut_item_num]), ih_location( &ih[i-cut_item_num]) + cut_size );
/* size, free space */
set_blkh_free_space( blkh, blkh_free_space(blkh) + cut_size );
do_balance_mark_leaf_dirty (bi->tb, bh, 0);
if (bi->bi_parent) {
struct disk_child *t_dc;
t_dc = B_N_CHILD (bi->bi_parent, bi->bi_position);
put_dc_size( t_dc, dc_size(t_dc) - cut_size );
do_balance_mark_internal_dirty (bi->tb, bi->bi_parent, 0);
}
}
/* delete del_num items from buffer starting from the first'th item */
static void leaf_delete_items_entirely (struct buffer_info * bi,
int first, int del_num)
{
struct buffer_head * bh = bi->bi_bh;
int nr;
int i, j;
int last_loc, last_removed_loc;
struct block_head * blkh;
struct item_head * ih;
RFALSE( bh == NULL, "10210: buffer is 0");
RFALSE( del_num < 0, "10215: del_num less than 0 (%d)", del_num);
if (del_num == 0)
return;
blkh = B_BLK_HEAD(bh);
nr = blkh_nr_item(blkh);
RFALSE( first < 0 || first + del_num > nr,
"10220: first=%d, number=%d, there is %d items", first, del_num, nr);
if (first == 0 && del_num == nr) {
/* this does not work */
make_empty_node (bi);
do_balance_mark_leaf_dirty (bi->tb, bh, 0);
return;
}
ih = B_N_PITEM_HEAD (bh, first);
/* location of unmovable item */
j = (first == 0) ? bh->b_size : ih_location(ih-1);
/* delete items */
last_loc = ih_location( &(ih[nr-1-first]) );
last_removed_loc = ih_location( &(ih[del_num-1]) );
memmove (bh->b_data + last_loc + j - last_removed_loc,
bh->b_data + last_loc, last_removed_loc - last_loc);
/* delete item headers */
memmove (ih, ih + del_num, (nr - first - del_num) * IH_SIZE);
/* change item location */
for (i = first; i < nr - del_num; i ++)
put_ih_location( &(ih[i-first]), ih_location( &(ih[i-first]) ) + (j - last_removed_loc) );
/* sizes, item number */
set_blkh_nr_item( blkh, blkh_nr_item(blkh) - del_num );
set_blkh_free_space( blkh, blkh_free_space(blkh) + (j - last_removed_loc + IH_SIZE * del_num) );
do_balance_mark_leaf_dirty (bi->tb, bh, 0);
if (bi->bi_parent) {
struct disk_child *t_dc = B_N_CHILD (bi->bi_parent, bi->bi_position);
put_dc_size( t_dc, dc_size(t_dc) -
(j - last_removed_loc + IH_SIZE * del_num));
do_balance_mark_internal_dirty (bi->tb, bi->bi_parent, 0);
}
}
/* paste new_entry_count entries (new_dehs, records) into position before to item_num-th item */
void leaf_paste_entries (
struct buffer_head * bh,
int item_num,
int before,
int new_entry_count,
struct reiserfs_de_head * new_dehs,
const char * records,
int paste_size
)
{
struct item_head * ih;
char * item;
struct reiserfs_de_head * deh;
char * insert_point;
int i, old_entry_num;
if (new_entry_count == 0)
return;
ih = B_N_PITEM_HEAD(bh, item_num);
/* make sure, that item is directory, and there are enough records in it */
RFALSE( !is_direntry_le_ih (ih), "10225: item is not directory item");
RFALSE( I_ENTRY_COUNT (ih) < before,
"10230: there are no entry we paste entries before. entry_count = %d, before = %d",
I_ENTRY_COUNT (ih), before);
/* first byte of dest item */
item = bh->b_data + ih_location(ih);
/* entry head array */
deh = B_I_DEH (bh, ih);
/* new records will be pasted at this point */
insert_point = item + (before ? deh_location( &(deh[before - 1])) : (ih_item_len(ih) - paste_size));
/* adjust locations of records that will be AFTER new records */
for (i = I_ENTRY_COUNT(ih) - 1; i >= before; i --)
put_deh_location( &(deh[i]),
deh_location(&(deh[i])) + (DEH_SIZE * new_entry_count ));
/* adjust locations of records that will be BEFORE new records */
for (i = 0; i < before; i ++)
put_deh_location( &(deh[i]), deh_location(&(deh[i])) + paste_size );
old_entry_num = I_ENTRY_COUNT(ih);
put_ih_entry_count( ih, ih_entry_count(ih) + new_entry_count );
/* prepare space for pasted records */
memmove (insert_point + paste_size, insert_point, item + (ih_item_len(ih) - paste_size) - insert_point);
/* copy new records */
memcpy (insert_point + DEH_SIZE * new_entry_count, records,
paste_size - DEH_SIZE * new_entry_count);
/* prepare space for new entry heads */
deh += before;
memmove ((char *)(deh + new_entry_count), deh, insert_point - (char *)deh);
/* copy new entry heads */
deh = (struct reiserfs_de_head *)((char *)deh);
memcpy (deh, new_dehs, DEH_SIZE * new_entry_count);
/* set locations of new records */
for (i = 0; i < new_entry_count; i ++)
{
put_deh_location( &(deh[i]),
deh_location( &(deh[i] )) +
(- deh_location( &(new_dehs[new_entry_count - 1])) +
insert_point + DEH_SIZE * new_entry_count - item));
}
/* change item key if necessary (when we paste before 0-th entry */
if (!before)
{
set_le_ih_k_offset (ih, deh_offset(new_dehs));
/* memcpy (&ih->ih_key.k_offset,
&new_dehs->deh_offset, SHORT_KEY_SIZE);*/
}
#ifdef CONFIG_REISERFS_CHECK
{
int prev, next;
/* check record locations */
deh = B_I_DEH (bh, ih);
for (i = 0; i < I_ENTRY_COUNT(ih); i ++) {
next = (i < I_ENTRY_COUNT(ih) - 1) ? deh_location( &(deh[i + 1])) : 0;
prev = (i != 0) ? deh_location( &(deh[i - 1]) ) : 0;
if (prev && prev <= deh_location( &(deh[i])))
reiserfs_warning (NULL, "vs-10240: leaf_paste_entries: directory item (%h) corrupted (prev %a, cur(%d) %a)",
ih, deh + i - 1, i, deh + i);
if (next && next >= deh_location( &(deh[i])))
reiserfs_warning (NULL, "vs-10250: leaf_paste_entries: directory item (%h) corrupted (cur(%d) %a, next %a)",
ih, i, deh + i, deh + i + 1);
}
}
#endif
}